APPENDIX I: IESC LABORATORY CODE AND KEYWORDS

APPENDIX I: IESC LABORATORY CODE AND KEYWORDS March2017 Laboratory name Research keywords of SocioEnvironmental Energy S1 Energy Social Engineering (Engineering for Social ) Social Engineering, Recycle, EcoMaterials, EcoEducation, Effective Use of Energy and Resource Energy Studies, MineralsEnergy Nexus, Policy Studies, Energy and Environment, S2 Energy Economics Sustainability S3 Energy Ecosystems (Biomass Energy) Biomass Energy, Supercritical Fluid, Pyrolysis, Bioethanol, Biodiesel, Biobased Products S4 Energy and Information Human Interface, HumanMachine System, Augmented Reality, Organizational Learning, Intellectual (Human Interface) Productivity, Proenvironmental Behavior S5 Energy and Environment (Energy Environmental Impact) Aerosol, Atmospheric Environment, Atmospheric Chemistry, Environmental Impact Assessment S6 Energy Policy () Energy Policy, Nuclear Energy, Energy Security, Nuclear Security, Nonproliferation, Energy BestMix S7 Societal Energy Education () Social Energy Education, Disaster, Hazard Evaluation, Earthquake Disaster Prevention Strategy of Fundamental Energy Energy Chemistry, Electrochemistry, Fluorine Chemistry, Molten Salt, Ionic liquid, Na Secondary K1 Energy Chemistry Battery, Li Secondary Battery K2 K3 Quantum Energy Processes (Materials Chemistry and Physics) Functional and Solid State Chemistry K4 Plasma and Fusion K5 Electromagnetic Energy K6 Plasma Physics Organic Molecular Materials, Photochemistry, Inorganic Semiconductors, Solid State Physics, Photophysics, Solar Cells, Photocatalysts Inorganic Material Chemistry, Crystal Chemistry, Electrochemistry, Solid State Chemistry, Electrochemical Materials, Bioenvironment Compatible Material, Functional Material Chemistry Nuclear Fusion and Plasma Theory, Nonlinear and Nonequilibrium Plasma Physics; Hierarchical Simulation; Lasermatter Interaction Fusion Energy, Data Analyses of Plasma Experiments, Measurements and Diagnostics, Theory and Numerical Simulation Microwave Spherical Torus Experiment, Plasma Wave Physics, Equilibrium, Stability and Transport, Plasma Diagnostics K7 Fusion Energy Control () Control of High Temperature Plasma, Boundary Plasma Physics, Plasma Heating and Flow Control K8 HighTemperature Plasma Physics () K9 Interfacial Energy Processes () K10 Energy Nano Engineering () K11 Biofunctional Chemistry () Confinement Experiment of Heliotron Plasma, MonteCarlo Simulation, Development of Fusion Plasma Diagnostics Electrochemistry, Molten Salt, Ionic liquid, Silicon Solar Cell, Secondary Battery, Genetic Engineering, Bioenergy Nanoscience, Nanomaterials, Solar Energy, Organic Photovoltaic Cells, Theoretical Biophysics, Statistical Mechanics of Liquids Nanobiotechnology, Protein Engineering, Chemical Biology, Synthetic Biology, Artificial photosynthesis, Bioenergy K12 Bioenergy () Bioenergy, Biomass, Structural Biology, NMR, antihiv Enzyme, Prion Protein, Aptamer, Bioethanol K13 Fundamental Neutron () Nuclear Reactor Experiment and Analysis, Development of Radiation Detection System K14 Energy Transport () Energy, Thermal Hydraulics, Multiphase Flow, Neutron Radiography of Energy Thermal Engineering, Power Engineering, Internal Combustion Engine, Pollutant Emission Control, H1 Thermal Energy Alternative Fuels H2 H3 H4 Design for Functional H5 Materials Design for Energy Advanced Energy () H6 High Quality Energy () H7 Functional Energy Materials () ThermoFluid, Combustion and Engineering, Alternative Fuels, Laser Diagnostics and Image Analysis, Computational Fluid Dynamics Strength of Materials, Fracture Mechanics, Fatigue, Ceramics Coated Materials, Porous Ceramics Mechanics of Functional Materials, Nonlinear Continuum Mechanics, Elastoplasticity, Nondestructive Evaluation by Ultrasonics, Electromagnetic Methods, and Thermography Plasma and Technology, Fusion Technology, Fusion Energy, Fusion Application, Fusion Energy System Design, SocioEconomic Evaluation of Energy System, Social and Environmental Sustainability Evaluation Plasma Physics, Microwave Technology, Accelerator Physics, Charged Particle Beam Physics, Compact Fusion Neutron Source Application Materials for Environment and Energy, Fusion Reactor Materials, Nuclear Materials, Nanooxide Particles Dispersion Strengthened Alloys, Computational Materials

of Energy and Technology * IESC is available only for DOCTORAL programs O1 Devices Physics Crystal Alignment Techniques, Energy Materials, Thin Film Growth, Magnetic Alignment, Superconductors O2 Process and Energy O3 Materials Process Applied supercondcutivity energy apparatus, Power system Engineering, Cryogenic Engineering, Thermal hydraulics Materials processing, Electrochemical processing, Functional materials, Thin films O4 Thermochemistry Thermochemistry, Environmentalfriendly Processes, Recycling Processes O5 Energysaving materials, Multiscaling materials, Rock engineering O6 Advanced Processing of Computational Physics, Working Process, Thermal Fluid Engineering, Process Simulation, Advanced Processing of Ecomaterials O7 Mineral Processing Resources Circulation, Mineral Processing, Geochemistry, Ocean O8 O9 O10 Quantum Radiation Energy () The Physics of Energy Materials () MidInfrared and THz Beam, Photophysics, Security Application, Biomass Energy, Renewable Energy System/Policy/Implementation Study OptoNano and Technology, Functional Composit NanoMaterials, Solid State Physics, Light Energy Utilization, Ceramic matrix composites, Nuclear material Photon Energy Laser Application, Nanomaterials, Thin Film, Laser Processing,Nonlinear Optics, Spectroscopy () (Institute of Advanced Energy, Uji), (Research Reactor Institute, Kumatori)

LABORATORIES LIST FOR INTERNATIONAL ENERGY SCIENCE COURSE 2018 INTAKE This table shows the of student s for the Academic Year 2018, relevant academic background and potential fields of undergraduate study for applicants reference. Please note that this is not an exhaustive list of research areas the faculty members cover and also that only laboratories recruiting students for AY2018 are shown on this table. SocioEnvironmental Energy S1 S2 S3 Energy Social Engineering (Engineering for Social ) Energy Economics Energy Ecosystems (Biomass Energy) S4 Energy and Information (Human Interface) Energy and Environment S5 (Energy Environmental Impact) S6 Energy Policy S7 Societal Energy Education Master's program (Oct) Doctoral program (Apr/Oct) BIOENVIRONMENTAL SCIENCE Relevant background Only the research fields of natural science are included in the list above. Applicants in fields of social and human science are also accepted in the of Socioenvironmental Energy. Applicants are recommended to refer to the brochure and webpage of the Graduate School of Energy for detailed information on the research topics in each laboratory. Also accepting students who are interested in and able to analyze social issues requiring proficiency in statistics. Energysystems study; Analysis and design of energy supplydemand systems including human as decisionmakers. Undergraduate students in any natural science be accepted, preferentially in biomassrelated fields. We study bioenergy and biochemicals from various biomass materials. Cognitive psychology Informatics Statistics Environmental chemistry/physics Basic knowledge of energy policy and energy scenario study is preferred. K1 Energy Chemistry Fundamental Energy K2 K3 K4 K5 Quantum Energy Processes (Materials Chemistry and Physics) Functional and Solid State Chemistry Plasma and Fusion Electromagnetic Energy It is preferable that students understand the basics of mechanics, electromagnetics, statistical physics and quantum mechanics. K6 Plasma Physics It is preferable that students understand the basics of mechanics, electromagnetism, and statistical physics.

March2017 : Institute of Advanced Energy, Uji : Kyoto University Research Reactor Institute, Kumatori Laboratories are restricted in accepting students in the context of nuclear nonproliferation. Master's program Doctoral program Relevant background BIOENVIRONMENTAL SCIENCE Fundamental Energy K7 Fusion Energy Control K8 HighTemperature Plasma Physics K12 Bioenergy Fundamental Neutron K13 K9 Interfacial Energy Processes K10 Energy Nano Engineering K11 Biofunctional Chemistry Knowledge of organic & inorganic chemistry and biochemistry is preferable. Life Biochemistry & Molecular Biology K14 H1 Energy Transport Thermal Energy Energy H2 H3 H4 H5 H6 H7 Materials Design for Energy Design for Functional Advanced Energy High Quality Energy Functional Energy Materials ThermoFluid Dynamics, Combustion Engineering Strength and Mechanics of Engineering Materials Nonlinear continuum mechanics Mechanical properties, Nanostructure, Advanced steels, Radiation effects

March2017 : Institute of Advanced Energy, Uji : Kyoto University Research Reactor Institute, Kumatori Laboratories are restricted in accepting students in the context of nuclear nonproliferation. Master's program Doctoral program O1 Devices Physics Relevant background BIOENVIRONMENTAL SCIENCE Basic knowledge of solid state physics, inorganic chemistry, and crystal engineering is preferable. O2 Process and Energy O3 Materials Process Energy and Technology O4 Thermochemistry O5 O6 Advanced Processing of O7 Mineral Processing O8 The Physics of Energy O9 Materials O10 Quantum Radiation Energy Photon Energy Accepting students who have interests in Renewable Energy Implementation Basic knowledge of solid state physics, inorganic chemistry, is preferable. Basic knowledge of quantum mechanics or optics is preferred but not necessarily required.